Despite advances in genomics in recent years, schizophrenia remains one of the most complex challenges of both genetics and neuroscience. The chromosomal abnormality 22q11 deletion syndrome, also known as DiGeorge syndrome, offers a way in, since it is one of the strongest genetic risk factors for schizophrenia.
Out of dozens of genes within the 22q11 deletion, several encode proteins found in mitochondria. A team of Emory scientists, led by cell biologist Victor Faundez, recently analyzed Read more

elizabeth Wright

We are excited that the ASM Microbe meeting will be at the Georgia World Congress Center from June 7 to June 11. If you are interested in antibiotic resistance, you can learn about how to detect it, how to (possibly) defeat it and how the bacteria fight back.

A host of Emory microbiologists are participating. In some cases, our scientists are presenting their unpublished data for discussion with their colleagues at other universities. Accordingly, we are not going to spill the beans on those results. However, please find below some examples of who’s talking and a bit of explanatory background. ASM Microbe abstracts are available online for posters, but not for some symposiums and plenary talks.

David Weiss lab — Klebsiella

Graduate student Jessie Wozniak is presenting her research on an isolate of Klebsiella that combines alarming properties. She will describe how the bacterial colonies behave (unappetizingly) like stretchy melted cheese in a “string test.”

Dunham, a structural biologist, is giving a plenary talk June 11 on toxin-antitoxin pairs, which play a role in regulating bacterial persistence, a dormant state that facilitates antibiotic resistance. Two pastpapers from her lab.

Phil Rather lab – Acinetobacter baumannii

Rather’s lab recently published a Nature Microbiology paper on A. baumannii’s virulence/opacity switch. This type of bacteria is known for hospital-associated infections and for wound infections in military personnel. Poster talk by graduate student Sarah Anderson June 8. Read more

Advances in both light and electron microscopy are improving scientists’ ability to visualize viruses such as HIV, respiratory syncytial virus (RSV), measles, influenza, and Zika in their native states.

Researchers from Emory University School of Medicine and Children’s Healthcare of Atlanta developed workflows for cryo-correlative light and electron microscopy (cryo-CLEM), which were published in the January 2017 issue of Nature Protocols.

Wright and her colleagues have refined techniques for studying viruses in the context of the cells they infect. That way, they can see in detail how viruses enter and are assembled in cells, or how genetic modifications alter viral structures or processing.

“Much of what is known about how some viruses replicate in cells is really a black box at the ultrastructural level,” she says. “We see ourselves as forming bridges between light and electron microscopy, and opening up new realms of biological questions.”

Wright is director of Emory’s Robert P. Apkarian Integrated Electron Microscopy Core and a Georgia Research Alliance Distinguished Investigator. The co-first authors of the Nature Protocols paper are postdoctoral fellows Cheri Hampton, PhD. and Joshua Strauss, PhD, and graduate students Zunlong Ke and Rebecca Dillard.

The Wright lab’s work on cryo-CLEM includes collaborations with Gregory Melikyan in Emory’s Department of Pediatrics, Phil Santangelo in the Wallace H. Coulter Department of Biomedical Engineering at Georgia Tech and Emory, and Paul Spearman, now at Cincinnati Children’s.

For this technique, virus-infected or transfected cells are grown on fragile carbon-coated gold grids and then “vitrified,” meaning that they are cooled rapidly so that ice crystals do not form. Once cooled, the cells are examined by cryo-fluorescent light microscopy and cryo-electron tomography. Read more

The researchers examined the engineered virus using cryo-electron microscopy and cryo-electron tomography techniques, and showed that it is structurally very similar to wild type virus. When used as a vaccine, it can protect mice and cotton rats from RSV infection.

“Our paper shows that it’s possible to attenuate RSV without losing any immunogenicity,” says senior author Martin Moore, PhD, associate professor of pediatrics at Emory University School of Medicine and a Children’s Healthcare of Atlanta Research Scholar. “This is a promising live-attenuated vaccine candidate that merits further investigation clinically.”

The next steps for this vaccine are to produce a clinical grade lot and conduct a phase 1 study of safety and immunogenicity in infants, Moore says. Read more

Tetherin is a host cell factor that mechanically links HIV-1 to the plasma membrane. This is the first time anyone has imaged tethered HIV-1 by cryo-electron tomography. In doing so, we were able to learn about the length and arrangement of the tethers.

Cryo-electron tomography is an imaging technique which enables scientists to look at biological specimens in a â€œnative-likeâ€ (frozen hydrated) state, without the chemical fixatives or heavy metal stains typically used for conventional electron microscopy.

Emory’s Office of Postdoctoral Education is holding a Best Image contest. The deadline to vote is this Thursday, April 30. You can look at these beautiful images (and guess exactly what they are, based on what lab they come from), but to VOTE, you need to go to the OPE site.